Power allocation of cooperative amplify-and-forward communications with multiple relays 被引量：5

Power allocation of cooperative amplify-and-forward communications with multiple relays

导出

摘要 Cooperative diversity is one of the most effective ways to mitigate the fading effect of wireless channels and obtain the spatial gain in wireless networks. In this paper, an optimal power allocation （OPA） scheme for a cooperative communication system using the amplify-and-forward （AF） transmit strategy with multiple relay users is proposed by minimizing the bit-error-rate （BER） at the destination under the constraint of the total transmit power of both the source user and the relay users. Simutation resutts indicate that the proposed power allocation method can achieve significant BER performance improvement than using the equal power allocation （EPA） scheme, while still attains low complexity. The system performance is improved significantly with the increasing of the number of relay users at high signal-noise ratio （SNR）. However, at low SNR, the system performance decreases when the relay number increases. Thus, an adaptive relay selection scheme may be used to choose the appropriate relay numbers in different transmission scenarios to provide system performance improvement and keep the power allocation scheme with low complexity. Cooperative diversity is one of the most effective ways to mitigate the fading effect of wireless channels and obtain the spatial gain in wireless networks. In this paper, an optimal power allocation （OPA） scheme for a cooperative communication system using the amplify-and-forward （AF） transmit strategy with multiple relay users is proposed by minimizing the bit-error-rate （BER） at the destination under the constraint of the total transmit power of both the source user and the relay users. Simutation resutts indicate that the proposed power allocation method can achieve significant BER performance improvement than using the equal power allocation （EPA） scheme, while still attains low complexity. The system performance is improved significantly with the increasing of the number of relay users at high signal-noise ratio （SNR）. However, at low SNR, the system performance decreases when the relay number increases. Thus, an adaptive relay selection scheme may be used to choose the appropriate relay numbers in different transmission scenarios to provide system performance improvement and keep the power allocation scheme with low complexity.

作者 WU Zhuo YANG Hong-bing

机构地区 School of Communication and Information Engineering

出处《The Journal of China Universities of Posts and Telecommunications》 EI CSCD 2011年第4期65-69,共5页 中国邮电高校学报（英文版）

基金 supported by the National Natural Science Foundation of China (60972055) the Shanghai Educational Development Foundation (09CG40) the Science and Technology Commission of Shanghai Municipality (10220710300)

关键词 cooperative communication AF EPA PA multiple relays BER cooperative communication, AF, EPA, PA, multiple relays, BER

分类号 TN914 [电子电信—通信与信息系统] TN41 [电子电信—微电子学与固体电子学]

引文网络
相关文献

参考文献10

1Foschini G J, Gans M J. On limits of wireless communications in a fading environment when using multiple antennas. Wireless Personal Communications, 1998, 6(3): 311-335.
2Nostratinia A, Hunter T E, Hedayat A. Cooperative communications in wireless networks. IEEE Communications Magazine, 2004, 42(10): 74-80.
3Zhao L, Mark J W, Ding J. Power distribution/allocation in multi rate wideband CDMA systems. IEEE Transactions on Wireless Communications, 2006, 5(9): 2458-2467.
4Host-Madsen A, Zhang J. Capacity bounds and power allocation for wireless relay channels. IEEE Transactions on Information Theory, 2005, 51(6): 2020-2040.
5Hasna M O, Alouini M S. Optimal power allocation for relayed transmissions over Rayleigh-fading channels. IEEE Transactions on Wireless Communications, 2004, 3(6): 1999-2004.
6Talebi A, Krzymiefi W A. Cooperative M1MO multiple-relay system with optirnised beamforming and power allocation. IET Communications, 2010, 4(14): 1677-1686.
7Chuai G, Liu H L. Optimal power allocation for DAF cooperative communication with multiple relays. Proceedings of the 5th International Conference on Wireless Communications, Networking and Mobile Computing (WiCOM'09), Sep 24-26, 2009, Beijing, China. Piscataway, NJ. USA: IEEE. 2009: 5p.
8Hajiaghayi M, Dong M, Liang B. Maximizing lifetime in relay cooperation through energy-aware power allocation. IEEE Transactions on Signal Processing, 2010, 58(8): 4354-4366.
9De Lamare R C. Joint power allocation and interference mitigation techniques for cooperative spread spectrum systems with multiple relays. Proceedings of the 6th International Symposium on Wireless Communication Systems (ISWCS'09), Sep 7-10, 2009, Siena, Italy. Piscatawaw, N J, USA: IEEE, 2009:308-312.
10Ribeiro A, Cai X D, Giannakis G B. Symbol error probabilities for general cooperative links. Proceedings of the IEEE International Conference on Communications (ICC'04): Vol 6, Jun 20-24, 2004, Paris, France. Piscataway, NJ, USA: IEEE, 2004:3369-3373.

同被引文献28

1陈华根,吴健生,王家林,陈冰.模拟退火算法机理研究[J].同济大学学报（自然科学版）,2004,32(6):802-805. 被引量：133
2王福豹,史龙,任丰原.无线传感器网络中的自身定位系统和算法[J].软件学报,2005,16(5):857-868. 被引量：671
3AKSU H,AKSOY D,KURPEOGLU I. A study of localization metrics: Evaluation of position errors in wireless sensor networks [J]. Computer Networks, 2011,55(15): 3562-3577.
4DONOHO D. Compressed sensing [J]. IEEE Transactions on Information Theory, 2006, 52 (4): 1289-1306.
5DONOHO D L. For most large underdetermined systems of linear equations, the minimal l1 norm solution is also the sparsest solution E J 1. Communications on Pure and Applied Mathematics,2006,59(6) : 797-829.
6TROPP J, GILBERT A. Signal recovery from random measurements via orthogonal matching pursuit [ J ]. Transactions on Information Theory,2007,53(12): 4655-4666.
7NEEDELL D, TROPP J A. CoSaMP: Iterative signal recovery from incomplete and inaccurate samples[J]. ACM Technical Report 2008, 01, California Institute of Technology, Pasadena, July 2008.
8CEVHER V, DUARTE M F, BARANIUK R G. Distributed target localization via spatial sparsity [ C ]. Proceedings of the European Signal Processing Conference, Lausanne, Szvitzerland, Aug,2008: 25-29.
9FENG CHEN,VALAEE S,TAN ZH H. Multiple target localization using compressive sensing [C]. GLOBECOM 2009, Piscataway : IEEE, 2009 : 1-6.
10KRISHNANAND K N, GHOSE D. Theoretical foundations for rendezvous of glowworm inspired agent swarms at multiple locations [J]. Robotics and Autonomous Systems ,2008,56(7) : 549-569.

引证文献5

1武卓,杨洪兵,郑国莘.多中继放大转发协同通信系统功率分配方法[J].上海大学学报（自然科学版）,2012,18(1):20-25. 被引量：2
2杨洁,芮雄丽,曹雪虹.改进的解码转发多跳中继系统及最优功率分配[J].计算机工程,2013,39(3):82-86. 被引量：2
3刘洲洲,王福豹.基于离散萤火虫压缩感知重构的无线传感器网络多目标定位[J].光学精密工程,2014,22(7):1904-1911. 被引量：13
4王林,芮国胜,张洋.总功率受限下的双向多中继系统功率分配方案[J].中国电子科学研究院学报,2015,10(1):107-112. 被引量：1
5郭莉莉,陈永红,张士兵.中继通信系统中的功率分配研究[J].电子制作,2014,22(13):111-112.

二级引证文献18

1唐菁敏,曹金石,龙华,张春平.多跳协作分集系统的中断性能[J].计算机应用,2013,33(8):2121-2123. 被引量：2
2唐思腾,刘紫燕,帅暘.基于萤火虫算法的多中继功率分配[J].电讯技术,2014,54(10):1407-1412. 被引量：2
3尹航,宋新,闫野.星图的稀疏表示性能[J].光学精密工程,2015,23(2):573-581. 被引量：3
4杜岩,马玉春,朱晓静.基于物联网和激光传感器的智能监控系统研究[J].激光杂志,2016,37(1):9-11. 被引量：4
5郭红山,张慧宁.基于萤火虫优化算法的红外图像增强研究[J].电声技术,2016,40(2):60-64.
6刘洲洲,徐继良,韩莹,王晓柱.基于压缩感知理论的WSNs时序信号分段压缩算法[J].传感技术学报,2016,29(1):122-128. 被引量：8
7郭红山,张慧宁.基于萤火虫算法的农业遥感图像增强研究[J].浙江农业学报,2016,28(6):1076-1081. 被引量：4
8刘洲洲,王福豹.改进的离散混合蛙跳算法压缩感知信号重构及应用[J].吉林大学学报（工学版）,2016,46(4):1261-1268. 被引量：5
9余晓兰,徐跃进,周战馨.基于并行离散群居蜘蛛优化算法和压缩感知的WSNs稀疏事件检测[J].中国电子科学研究院学报,2017,12(2):202-208.
10陈芳芳,王涛,孙彦赞,吴雅婷.双向放大转发中继链路的能效[J].上海大学学报（自然科学版）,2017,23(5):666-673. 被引量：1

1王永林.俄罗斯低轨卫星通信系统“急使”的频—域分配计划[J].电信技术研究,1999(1):53-57.
2杨铭贤.美国将实行新的无线频谱分配计划[J].电信工程技术与标准化,1994,0(3):35-35.
3万松峰.基于51单片机的PCB在线测试仪的设计[J].科技风,2013(12):61-62.
4Tong CHEN,Kanapathippillai CUMANAN,Zhiguo DING,Guiyun TIAN.Network coding with diversity and outdated channel state information[J].Journal of Modern Transportation,2012,20(4):261-267.
5CHENG Yu-lun,YANG Long-xiang.Low complexity power allocation for hybrid amplify-and-forward opportunistic relay ordering cooperation[J].The Journal of China Universities of Posts and Telecommunications,2013,20(3):26-31. 被引量：2
6GUO Wei-jie,HUANG Liu-sheng,SUN Quan,XU Hong-li,ZHANG Hao-ran.Delay-aware reliable broadcast scheme based on power control for VANETs[J].The Journal of China Universities of Posts and Telecommunications,2014,21(1):26-35. 被引量：1
7WANG QunHuan,WANG HuiMing,YIN QinYe.Optimal user scheduling and power control in multi-user cognitive broadcast systems[J].Science China(Information Sciences),2012,55(6):1402-1414. 被引量：1
8LI Sheng-yu,XU Wen-jun,GAO Yan,NIU Kai,LIN Jia-ru.Resource allocation for multiple description coding multicast in OFDM-based cognitive radio networks[J].The Journal of China Universities of Posts and Telecommunications,2012,19(5):51-57.
9YANG Chang-qing,WANG Wen-bo,ZHAO Shuang,PENG Mu-gen School of Information and Communication Engineering,Beijing University of Posts and Telecommunications,Beijing 100876,China.Lifetime maximization of cooperative networks with mean channel gain information[J].The Journal of China Universities of Posts and Telecommunications,2009,16(4):98-103.
10Zhou Jia,Wang Xiaoxiang,Qi Yanyan.Performance analysis of opportunistic amplify-and-forward two-way relaying in two-wave with diffuse power fading channels[J].The Journal of China Universities of Posts and Telecommunications,2015,22(2):7-14.

The Journal of China Universities of Posts and Telecommunications

2011年第4期

浏览历史

内容加载中请稍等...

Power allocation of cooperative amplify-and-forward communications with multiple relays 被引量：5

参考文献10

同被引文献28

引证文献5

二级引证文献18

相关作者

相关机构

相关主题

浏览历史